Unexpected microanatomical variation among Eocene Antarctic stem penguins (Aves: Sphenisciformes) |
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Authors: | Ignacio A. Cerda Claudia P. Tambussi Federico J. Degrange |
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Affiliation: | 1. Instituto de Investigación en Paleobiología y Geología, Universidad Nacional de Río Negro, Museo Carlos Ameghino, Belgrano 1700, Paraje Pichi Ruca (predio Marabunta), 8300 Cipolletti, Río Negro, Argentina;2. Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Argentinanachocerda6@yahoo.com.ar;4. Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Argentina;5. Centro de Investigaciones en Ciencias de la Tierra (CICTERRA), CONICET-UNC, Haya de la Torre s/n, X5016GCA, Ciudad Universitaria, Córdoba, Argentina |
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Abstract: | The microanatomical and histological structure of Eocene Antarctic stem penguin tarsometatarsi is examined in order to characterise the bone microstructure. Eight adult tarsometatarsi belonging to eight fossil species (Palaeeudyptes gunnari, Palaeeudyptes klekowskii, Anthropornis grandis, Anthropornis nordenskjoeldi, Archaeospheniscus wimani, Marambiornis exilis, Delphinornis arctowskii and Delphinornis larseni) collected from the Antarctic A. nordenskjoeldi Biozone (La Meseta Formation, ~34.2 Ma) were examined. The thin sections revealed a distinctive microanatomical variation among taxa. Whereas Anthropornis spp., A. wimani and P. gunnari possess massive, clearly osteosclerotic bones (medullary cavities absent or strongly reduced), the bones of Delphinornis spp., P. klekowski and M. exilis exhibit well-developed medullary cavities. The cortical bone in all the specimens consists of primary, well-vascularised fibro-lamellar bone and variable amounts of secondary bone. Medullary cavities are coated by a thick layer of lamellar bone tissue and coarse compacted cancellous bone. Although several causes can explain the striking microanatomical variation (e.g. ontogeny), we interpret that such variation is related to differential adaptations to the aquatic life, for which taxa with more massive bones were possibly adapted to deeper and more prolonged diving excursions. |
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Keywords: | Aves Sphenisciformes microanatomy histology skeletal adaptations |
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